Shape control of hybrid functionally graded plate through smart application of piezoelectric material using simple plate theory
作者: S. A. Patare , K. M. Bajoria
DOI: 10.1007/S42452-020-04121-Y
关键词: Polynomial (hyperelastic model) 、 Functionally graded material 、 Bending 、 Deflection (engineering) 、 Vibration 、 Boundary value problem 、 Plate theory 、 Computer science 、 Smart material 、 Structural engineering
摘要: The present study takes its inspiration from notable work in the literature related to flexural analysis of functionally graded material (FGM) plate along with a smart application piezoelectric but maintains novelty terms simple approach, an analytical solution wide scope application. Coupling element can control deflection, vibration thereby increasing safety, stability, and life these elements. Plates made up further enhances applicability as two different materials are fused. Analysis such system is challenging especially for closed form mathematical complex boundary conditions. In study, it proposed develop model bending FGM coupled layers. Polynomial based shear deformation function taken applied model. A complete performed validate governing Through material, deflection controlled loop feedback system. Analytical valid over entire domain obtained incorporating fixed support types initial part details formulation under consideration, followed by numerical validation which results compared studies literature. Lastly, through shape demonstrated graphically numerically. development discussed presented this all aspects form, solution, validation.
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